Laminated sheet construction with thermal adhesive surface and method for making same

ABSTRACT

A laminated sheet construction for use in product packages has a substrate layer onto which there is laminated a transparent solid plastic film with an exposed surface having a transparent thermosetting adhesive coating. The surface beneath the coating may be printed with text and/or graphics which is visible through the film and adhesive. A container for a product may be directly affixed to the adhesive surface. Panels of the laminated substrate may be bonded together for increased strength or for capturing the flange of a container which can project through a window in one of the panels while displaying printing on the other panel through the window.

This application is a divisional of U.S. patent application Ser. No.13/195,653 filed Aug. 1, 2011 which is a non-provisional applicationbased on provisional U.S. patent application Ser. No. 61/503,319 filedJun. 30, 2011.

BACKGROUND OF THE INVENTION

The present invention relates primarily to the construction of productdisplay packages although it can have other applications. Moreparticularly, the present invention is directed to providing printedsubstrates made of paper, cardboard, plastic and the like withtransparent thermal adhesive surfaces to which items may be readilyadhered. Such items may include, for example, transparent plasticcontainers for products to be displayed in their packages.

Prior art transparent containers which hold products are applied tobacking cards by using a sandwich of two overlapping cards into which awindow has been cut in one or both of the panels. A plastic containerhaving integral flanges is then placed in the window with the flangessandwiched between the overlapping card panels which are cementedtogether. Although it is know to produce web materials which havethermosetting adhesive surfaces, until now, their application has beenlimited to serving as outer layers for packages for security andaesthetics.

Referring to FIG. 1 of the drawings, it is known to coat a web of paper,cardboard, plastic or similar stock 1 with an adhesive 3, either aliquid drying one or a molten extrusion. Thereafter a web of plasticfilm 5 is layered over the adhesive to form a laminate of the paper,cardboard, plastic or similar stock and the web of plastic film. Next anextrusion of a molten thermal adhesive 7 is coated onto the surface ofthe plastic film to provide a laminate 9 having a paper, cardboard,plastic or similar material substrate and a thermal adhesive surface 11.

The prior art process by which thermal adhesive is applied requires thatthe thermal adhesive material be heated to above its melting point andlayered onto a continuous web fed at a uniform rate between a supplyspool and a takeup spool without starting and stopping or otherwiseupsetting the rate of travel of the web as the coating of molten thermaladhesive is uniformly applied. The laminate 9 can only be produced fromweb materials which are conveyed through a process line wherein theadhesives and plastic film are assembled.

In some applications it is desired to print relatively small sheets ofpaper, cardboard, plastic or similar material and thereafter apply athermal adhesive to the printed surface. Such printed sheets cannot betreated in a web conveyor apparatus. Nor can a molten thermal adhesivebe applied to single sheets of paper, cardboard, plastic or the like.

Referring to FIG. 2 of the drawings, it is also known in the art toproduce plastic film material in rolls onto which a thermal adhesive hasbeen coated in a manner similar to that shown in FIG. 1 but without thepaper, cardboard, plastic or similar material substrate. A laminate ofplastic film material 13 coated on one side with a thermal adhesive hasbeen found useful for enhancing the appearance and strength ofcontainers used in product packaging. In such applications, the plasticfilm laminate is applied to a package 15 made of paper, cardboard,plastic or similar stock with the thermal adhesive side of the plasticfilm 13 against one or more of the panels which form the package. Afterthe laminate 13 is adhered to the package by application of heat, theopposite uncoated side of the plastic film provides a glossy, satin, ormatte (depending of the film surface) look and feel to the package whichmakes it aesthetically attractive and resistant to tearing.

SUMMARY OF THE INVENTION

The present invention allows for a single panel to receive a transparentplastic container with the flanges adhered directly to the printedsurface of the card without necessity of an overlapping panel to securethe flanges to the card.

Packages may also be formed by folding the printed substrate onto itselfand providing a window through one panel of the substrate through whicha printed overlapping panel can be seen.

In another application, two panels may be affixed together with one ormore edges of one panel offset from the corresponding edges of a matedpanel to display graphics or other printing on a border of thecombination.

In accordance with the invention a thermal laminating film is used in anunconventional manner. Such thermal laminating films, which arecommercially available, e.g., from Protect-all, Inc. of Darien, Wis.,are typically designed to be applied to a substrate of paper, cardboard,plastic or similar sheet materials by heating through the film andactivating a thermal adhesive to bond/adhere it to the substrate. Thepresent invention teaches the application of an adhesive to the filmside of a thermal laminating film, and laminating the film side to asheet or roll of paper, cardboard, plastic or similar material, thusallowing the heat seal layer to be exposed. This allows the formation ofnew and unique packaging designs.

Applicant has discovered a method of providing printed substratescomprising sheets or rolls of paper, cardboard, plastic, or similarmaterials with a thermal adhesive surface. The sheets or rolls may beprinted with appropriate graphics and text for use in product packaging.The laminates formed in accordance with the invention can be cut,stacked and handled in a manner similar to that of sheets and rolls,printed or not, and containing no adhesive surface. The sheets and rollsare always ready for use to be adhered to a container or to themselveswhen folded over or cut into facing panels, by the application of heat.Moreover, the application of the film to the paper, cardboard, plastic,or similar materials imbues the materials with barrier properties thatprevent oils, fragrances and scents from passing through the materials.Also, the addition of film to the substrate can improve tear and tamperresistance where necessary depending on the choice of film.

The thermal laminating films can be applied to a variety of substratesincluding, but not limited to, light weight paper from 60 lb C1/s textweight to 36 pt paper board. Other suitable substrate materials includechip boards; laminated constructions of board to board or chip board tochip board up to and including 125 pt.; corrugated in single face ordouble face, in either white, black, kraft, or colors, from grades B, C,E, F and N Flute; plastics from 2 mil to 90 mil in thickness; and foamboard up to and including ½ inch thick.

For applying the thermal laminating film to substrates formed asindividual sheets, a roll of the thermal laminating film is mounted on asheet fed laminating machine. The roll is mounted inversely with respectto the orientation in which it is mounted for prior art applications. Aliquid adhesive is applied to the film side of the roll. From theopposite side of the sheet fed laminating machine, sheets of paper,cardboard (including corrugated), plastic or similar materials are fed.The thermal film is then joined to one side of the sheet. One of theunique features of the invention is the variety of substrates to whichthe thermal laminating film can be applied. Moreover, the sheets can bepreprinted on one or both sides.

It is therefore an object of the invention to provide a laminated sheetconstruction with an exposed thermal adhesive surface to which othermaterials may be applied upon application of heat.

It is another object of the invention to provide a laminated sheetconstruction with an exposed thermal adhesive surface that may includeprinted text and/or graphics viewable through the adhesive surface.

It is also an object of the invention to provide a laminatedconstruction, panels of which can be bonded together by application ofheat to create packages for products.

It is a further object of the invention to provide a laminated sheetconstruction having two panels with differently printed surfaces bondedtogether with a portion of the printing on one panel viewable through awindow in the other panel.

It is still a further object of the invention to provide a laminatedsheet construction having two panels with differently printed surfacesbonded together with a portion of the printing on one panel viewable asa border alongside the other panel.

Other and further objects of the invention will be apparent from thefollowing drawings and description of the preferred embodiments of theinvention.

DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic view illustrating a prior art method of making alaminated construction;

FIG. 2 is a perspective view of a prior art laminated construction;

FIG. 3 is a side elevation view of a component of a laminated sheetconstruction in accordance with the preferred embodiment of theinvention;

FIG. 4 is a side elevation view of another component of a laminatedsheet construction in accordance with the preferred embodiment of theinvention;

FIG. 5 is a side elevation view of a laminated sheet constructionassembled from the components shown in FIGS. 3 and 4 in accordance withthe preferred embodiment of the invention;

FIG. 6 is a side elevation view of a laminated sheet construction inaccordance with a first alternate preferred embodiment of the invention;

FIG. 7 is a plan view of a laminated sheet construction in accordancewith a second alternate preferred embodiment of the invention shown inFIG. 7;

FIG. 8 is a side elevation view of the second alternate preferredembodiment of the invention;

FIG. 9 is a plan view of a laminated sheet construction in accordancewith a third alternate preferred embodiment of the invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring to FIG. 3 of the drawings, in accordance with the presentinvention a paper, cardboard, plastic, or similar material substrate 17is provided with an optionally printed upper surface. A sheet of plasticsolid film material having a layer of thermal setting or thermoplasticadhesive on one side is coated on its opposite side, i.e., film side,with a setting liquid adhesive 19 as shown in FIG. 4. Thereafter theplastic film having one side coated with a thermal adhesive 23 islayered onto the surface on the paper, cardboard, plastic or similarmaterial substrate with the side of the plastic film to which the liquidadhesive 19 has been applied against the paper, cardboard, plastic, orsimilar material substrate 17 and the thermal adhesive side 23 of theplastic film 21 facing away from the paper, cardboard, plastic orsimilar material substrate 17. This is unlike the conventional method ofapplication wherein the thermal adhesive side of the plastic film isapplied directly to the surface of the paper, cardboard, plastic orsimilar material substrate as in FIG. 2. The liquid adhesive is thencaused to set thereby bonding the film 21 to the substrate 17.

The thermal laminating films have two basic components, i.e., a basefilm and a thermal adhesive which has been extruded onto the base film.Solid film materials suitable for use as thermal films in the practiceof the invention are available in many types of film and filmthicknesses. The base film can be from 40 gauge (about ½ mil) up to 7mils in thickness. The most common films used in the base are Polyester(PET), polypropylene (OPP), nylon, acetate, and polylactide (PLA). Allthese films possess different characteristics and may be incorporatedinto the invention based on the requirements for an end use package.Protect-all, Inc. is one of many suppliers of commercially availablethermal laminating films.

The thermal adhesive is an extrusion that can vary in thickness; mostcommon is from ½ mil to 8 mils thick. The most common adhesive used isethylene vinyl acetate copolymer (EVA), but ethylene methyl acrylatecopolymers (EMA) or a combination thereof may be used. Other suitableadhesives can include ethylene acrylic acrylate (EAA), ethylene ethylacrylate (EEA) or ethylene methyl acidic acrylate (EMAA).

One commercially available liquid adhesive found to be satisfactory isMOR-GLOSS™ 552A used in combination with a coreactant, MOR-GLOSS™CR-40B, each of which is manufactured by Dow Chemical Corporation. Manyother adhesives will work in the invention as will be known to thoseskilled in the art. The 552A adhesive component is a water based acrylicemulsion and the CR40-B is a water based isocyanate coreactant. Whenmixed and dried the two components react forming a high molecular weightacrylic/urethane adhesive. Many other adhesives of either water-based,solvent-based or Ultra Violet (UV) curing style may be substitutedprovided that the selected adhesive is suitable for securing the film tothe selected substrate and any further processing requirements calledfor by the package design.

The liquid adhesive is permitted to dry and set leaving a paper,cardboard, plastic or similar material substrate, having an optionallyprinted side, with a transparent thermal adhesive over that side of thesubstrate. The laminated sheet construction based on paper, cardboard,plastic or a substrate of similar material may now be used as apresentation card for a product enclosed in a transparent plasticcontainer 25 through which the product and the printing on the substratemay be viewed. The product can be placed within the plastic container asthe container is placed onto the thermal adhesive surface of thelaminated substrate and a flange 27 of the container 25 is heated forwelding the container to the substrate.

Referring to FIG. 7, in another embodiment of the present invention, awindow 29 can be cut into a sheet of the printed paper, cardboard,plastic or similar material substrate that has been coated with thethermal adhesive plastic film. Two separate congruent panels can bemated in registration as shown in FIG. 8 so that the window overlaps aprinted area of the laminate which is visible through the window.Alternatively, two adjacent panels of the same laminated substrate maybe folded together about a fold line in the laminated substrate toachieve a similar effect.

The flange of a transparent plastic container 31 can be sandwichedbetween the overlapping panels of the laminate with the container 31projecting through the window. The flange of the container surrounds anopening to a chamber in the container. The flange has a dimension largeenough to prevent the flange from passing through the window, so thatwhen the panels are bonded together, the flange is captured between thebonds panels. If the thermal adhesive surface on which the flange ismounted is melted to adhere to the flange, the container will beretained even if the window is large enough to allow the flange to passthrough it. By making the window small enough to pass the main body ofthe container, but not the flange, greater security for preventingdislodgement or removal of the container and its contents may beachieved. Also the appearance of the overall package, including thelaminate construction with the container and its contents may be moreaesthetically pleasing than if the flange were exposed through thewindow.

A product may be placed in the container before the overlapping panelsare sealed. After the panels are adhered to each other by heating thefacing thermal adhesive surfaces, the contents of the container, e.g.,the product, can be visible in the container with printing or othergraphics in the background of the window.

Referring to FIG. 9, the laminate of the present invention can haveother uses, for example, where decorative graphics or printing isdesired to be shown along one or more borders of a package card. In suchinstances, one panel of the laminate can be folded over onto the other,or two separate panels can be joined face-to-face, with the panels outof registration so that the printing on the inside of one of the panels,which is different from the printing on the overlying panel, shows alongthe edge of the package card laminate construction thereby providing acontrast between the face of the package and adjacent border.

For improving the structural integrity of a club style package, inaccordance with the invention, the thermal laminating film can beapplied to both sides of a corrugated/chipboard sheet which can beintegrated into the middle of a club style package. This arrangementoffers the ability to heat seal two plain or preprinted sheets togetherwith a strong corrugated/chipboard middle core. The resultingconstruction offers the ability to heat seal a package together whilesimultaneously building in tamper resistance to a degree that can bedetermined by the choice of composition and thickness of the base filmin the thermal laminating film.

It is to be appreciated that other and further modifications andvariations may be made to the embodiments herein disclosed withoutdeparting from the spirit and scope of the invention.

The invention is not limited to substrates in sheet form and can be usedwith substrates in roll form. On a roll-fed flexographic printingmachine rolls of paper, cardboard, plastic or similar materials can befed and printed, foil stamped, decorated and die cut in line, and thethermal laminating film can then be applied, to produce a finishedproduct in one pass. Application of thermal laminating film tosubstrates in roll form is most economical in large volume productionversus sheet feeding which is considered to be slower and more costly.

Unlike prior art packaging materials which cannot be printed and thenhave a heat seal material applied over the printed graphics, the presentinvention allows a heat seal material to be applied over a printedsurface. On a roll-fed Flexo press one can print the roll of paper,cardboard, plastic or similar material, decorate, foil stamp, andperform other process steps normally done on a substrate in roll formand then coat the film side of the thermal laminating film with anadhesive for application of the thermal laminating film to the decoratedroll. The laminated roll can then be taken off the machine or optimallydie cut in line to finish the production process of the end product.

It is to be noted that with either a sheet or roll process, the thermallaminating film can be applied to either one both sides of the paper,cardboard, plastic or similar material substrate.

What is claimed is:
 1. A laminated sheet construction comprising asubstrate of sheet material having a front surface with printingthereon, a sheet of transparent solid film material having an adhesiveside coated with a layer of a transparent thermoplastic adhesive, and anopposite film side bonded to said front surface of said substrate ofsheet material to form a laminated substrate, said printing beingvisible through said thermoplastic adhesive and sheet of transparentsolid film.
 2. A construction according to claim 1 further comprising acontainer having a flange surrounding an opening to a chamber in saidcontainer, said flange of said container being mounted with said flangeaffixed to said thermoplastic adhesive surface.
 3. A constructionaccording to claim 1 wherein said laminated substrate is divided into afirst panel and a second panel, said first panel and said second panelbeing bonded together with said first panel overlapping said secondpanel, one of said first panel and said second panel having a window,through which a container projects, said container having a flangesurrounding an opening to a chamber in said container and being capturedbetween said first panel and second panel.
 4. A construction accordingto claim 3 wherein said first panel and said second panel are adjacentpanels of a single laminated sheet separated by a fold line about whichsaid first panel and said second panel are folded together.
 5. Aconstruction according to claim 4 wherein said first panel and saidsecond panel are congruent and in registration.
 6. A constructionaccording to claim 5 wherein said first panel and said second have atleast one pair of corresponding edges offset with respect to one anotherso that at least a portion of a border of one of said first panel andsaid second panel is visible when the other of said first panel and saidsecond panel is viewed.
 7. A construction according to claim 6 whereinthe printing on said front surface of said first panel is different fromthe printing on said border of said second panel so that there is acontrast between the border of said second panel and front surface ofsaid first panel.
 8. A construction according to claim 1 wherein saidsubstrate material is selected from the group consisting of paper,cardboard, corrugated board, chip board, and plastic.
 9. A constructionaccording to claim 1 wherein said solid film material is selected fromthe group consisting of polyester (PET), polypropylene (OPP), nylon,acetate, and PLA.